Akt isoforms differentially provide for chemoresistance in prostate cancer.
Bo MaHanshuang ShaoXia JiangZhou WangChuanyue Cary WuDiana WhaleyAlan WellsPublished in: Cancer biology & medicine (2021)
E-cadherin-induced activation of Akt1/2 isoforms was the essential mechanism of chemoresistance, whereas Akt3 made cells more fragile. These findings emphasized the need to target Akt1/2, rather than pan-Akt, as a rational therapeutic approach.